0000000000314901

AUTHOR

Daniele Salvi

showing 5 related works from this author

Regulatory changes in pterin and carotenoid genes underlie balanced color polymorphisms in the wall lizard

2019

Significance Reptiles show an amazing color diversity based on variation in melanins, carotenoids, and pterins. This study reveals genes controlling differences between three color morphs (white, orange, and yellow) in the common wall lizard. Orange pigmentation, due to high levels of orange/red pterins in skin, is caused by genetic changes in the sepiapterin reductase gene. Yellow skin, showing high levels of yellow carotenoids, is controlled by the beta-carotene oxygenase 2 locus. Thus, the color polymorphism in the common wall lizard is associated with changes in two small regions of the genome containing genes with crucial roles in pterin and carotenoid metabolism. These genes are likel…

balanced polymorphismBalanced polymorphismgenetic structuresEvolutionIntrogressionintrogressionColorpterin pigmentationSkin PigmentationDioxygenasesEvolutionsbiologiGeneticAnimalscarotenoid pigmentationPolymorphismPterin pigmentationEvolutionary BiologyPolymorphism GeneticBalanced polymorphism; Carotenoid pigmentation; Introgression; Podarcis muralis; Pterin pigmentation; Alcohol Oxidoreductases; Animals; Carotenoids; Color; Dioxygenases; Lizards; Pigmentation; Polymorphism Genetic; Pterins; Skin PigmentationPigmentationLizardsBiological SciencesCarotenoidsPterinsAlcohol OxidoreductasesPNAS PlusCarotenoid pigmentationPodarcis muralissense organs
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The era of reference genomes in conservation genomics

2022

Progress in genome sequencing now enables the large-scale generation of reference genomes. Various international initiatives aim to generate reference genomes representing global biodiversity. These genomes provide unique insights into genomic diversity and architecture, thereby enabling comprehensive analyses of population and functional genomics, and are expected to revolutionize conservation genomics.

QH301 Biology580 Plants (Botany)Genetics -- ResearchEvolutionsbiologibiodiversity conservation; conservation genetics; ERGA; European Reference Genome AtlasConservation genetics; Biodiversity conservation; European Reference Genome Atlas; ERGAAnimal genome mappingudc:630*1GenomeGEERGA[SDV.BID.EVO]Life Sciences [q-bio]/Biodiversity/Populations and Evolution [q-bio.PE][SDE.BE.BIOD]Environmental Sciences/Biodiversity and Ecology/domain_sde.be.biodERGA ; Biodiversity [MeSH] ; Genomics [MeSH] ; Ecology Evolution Behavior and Systematics ; conservation genetics ; Genome [MeSH] ; biodiversity conservation ; European Reference Genome Atlas3rd-DASGenomicsBiodiversityreferenčni genomi[SDV.BIBS]Life Sciences [q-bio]/Quantitative Methods [q-bio.QM][SDE.BE.BEC]Environmental Sciences/Biodiversity and Ecology/domain_sde.be.becChemistry10121 Department of Systematic and Evolutionary BotanygenomikaGE Environmental Sciences:Informàtica::Aplicacions de la informàtica::Bioinformàtica [Àrees temàtiques de la UPC]biodiverzitetaSettore BIO/18 - GENETICAeducationQH426 GeneticsQH301European Reference Genome AtlasVDP::Matematikk og Naturvitenskap: 400::Basale biofag: 470[SDE.BE.EVO]Environmental Sciences/Biodiversity and Ecology/domain_sde.be.evoGeneticsconservation genetics ; biodiversity conservation ; European Reference Genome Atlas ; ERGAgenomi10211 Zurich-Basel Plant Science CenterGenomesGenetikBiologyQH426Ecology Evolution Behavior and SystematicsEvolutionary BiologyBiodiversity conservation; Conservation genetics; European Reference Genome AtlasAmbientaleEcologíaGenética1105 Ecology Evolution Behavior and Systematicsconservation geneticsWildlife conservation570 Life sciences; biologyHuman medicinebiodiversity conservationAnimal genetics[SDE.BE]Environmental Sciences/Biodiversity and EcologyGenètica
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Regulatory Changes in Pterin and Carotenoid Genes Underlie Balanced Color Polymorphisms in the Wall Lizard

2018

ABSTRACTReptiles use pterin and carotenoid pigments to produce yellow, orange, and red colors. These conspicuous colors serve a diversity of signaling functions, but their molecular basis remains unresolved. Here, we show that the genomes of sympatric color morphs of the European common wall lizard, which differ in orange and yellow pigmentation and in their ecology and behavior, are virtually undifferentiated. Genetic differences are restricted to two small regulatory regions, near genes associated with pterin (SPR) and carotenoid metabolism (BCO2), demonstrating that a core gene in the housekeeping pathway of pterin biosynthesis has been co-opted for bright coloration in reptiles and indi…

chemistry.chemical_classificationgenetic structuresHaplotypeBiologychemistry.chemical_compoundPigmentchemistrySympatric speciationEvolutionary biologyvisual_artGenetic variationvisual_art.visual_art_mediumPterinAlleleCarotenoidGene
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Population genomics of wall lizards reflects the dynamic history of the Mediterranean Basin

2021

AbstractThe Mediterranean Basin has experienced extensive change in geology and climate over the past six million years. Yet, the relative importance of key geological events for the distribution and genetic structure of the Mediterranean fauna remains poorly understood. Here, we use population genomic and phylogenomic analyses to establish the evolutionary history and genetic structure of common wall lizards (Podarcis muralis). This species is particularly informative because, in contrast to other Mediterranean lizards, it is widespread across the Iberian, Italian, and Balkan peninsulas, and in extra-Mediterranean regions. We found strong support for six major lineages within P. muralis, w…

Population genomicsPodarcis muralisGenetic diversityeducation.field_of_studybiologyEvolutionary biologyLineage (evolution)Genetic structurePopulationeducationbiology.organism_classificationMediterranean BasinGene flow
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The role of post-natal ontogeny in the evolution of phenotypic diversity in Podarcis lizards

2011

Understanding the role of the developmental pathways in shaping phenotypic diversity allows appreciating in full the processes influencing and constraining morphological change. Podarcis lizards demonstrate extraordinary morphological variability that likely originated in short evolutionary time. Using geometric morphometrics and a broad suite of statistical tests, we explored the role of developmental mechanisms such as growth rate change, ontogenetic divergence ⁄ convergence ⁄ parallelism as well as morphological expression of heterochronic processes in mediating the formation of their phenotypic diversity during the post-natal ontogeny. We identified hypermorphosis – the prolongation of …

MorphometricsSexual dimorphismbiologyOntogenyPodarcisZoologyInterspecific competitionAllometrybiology.organism_classificationHeterochronyPhenotypeEcology Evolution Behavior and SystematicsJournal of Evolutionary Biology
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